Engineering Materials: Properties and SelectionFor courses in Metallurgy and Materials Science. Co-authored by Kenneth G. Budinski and Michael K. Budinski, his son, with over 50 years of combined industry experience in the field, this practical, understandable introduction to engineering materials theory and industry-standard selection practices provides students with the working knowledge to (1) make an informed selection of materials for engineering applications and (2) correctly specify materials on drawings and purchasing documents. Encompassing all significant material systems metals, ceramics, plastics, and composites this text incorporates the most up-to-date information on material usage and availability, addresses the increasingly global nature of the field, and reflects the suggestions of numerous adopters of previous editions. |
From inside the book
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... stress points . Because the yield point is difficult to de- termine precisely , engineers often consider the yield point to occur at an offset strain of 0.2 % ( for metallic materials ) as shown in Figure 2-14 . Testing standards , such ...
... yield strength to ensure that a part does not fail by plastic deformation . Shear strength may be estimated from the yield strength . The ratio of the yield strength to the ultimate tensile strength provides an indication of the degree ...
... Tensile strength ( ksi ) 198 ( 1365 ) 70 ( 482 ) 50 ( 344 ) Tensile yield strength ( ksi ) Compressive yield strength ( ksi ) 255 ( 1758 ) 71 ( 489 ) 50 ( 344 ) Shear strength ( ksi ) 9 ( 62 ) Percent elongation 0.7 Tensile modulus ...
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Engineering Materials: Properties and Selection Kenneth G. Budinski,Michael K. Budinski No preview available - 2002 |